, Handbook of MRI pulse sequences, p.519
, Lau- 521 rent. Increased Carotid Wall Stress in Vascular Ehlers-Danlos Syndrome. Cir- 522 culation, pp.15301535-523, 2004.
, Compressibility of the Carotid Artery in Pa- 525 tients With Pseudoxanthoma Elasticum, Hypertension, vol.524, issue.5, pp.3811811184-526, 2001.
, MRI: basic principles and applications
DOI : 10.1002/0471467936
, Intrinsic 533 stiness of the carotid arterial wall material in essential hypertensives. Hyper- 534 tension, pp.10491054-535, 2000.
, Carotid Wall Thickness is Predictive 537 of Incident Clinical Stroke, Am J Epidemiol, vol.151, issue.5, pp.478487-538, 2000.
, Quantitative assessment of arterial wall 540 biomechanical properties using shear wave imaging, Ultrasound Med Biol, issue.10, pp.541-3616621676, 2010.
, Identication of heterogeneous 543 elastic properties in stenosed arteries: a numerical plane strain study
, Boissier, and 546 Z-Y. Li. A new method for the in vivo identication of mechanical properties 547 in arteries from cine MRI images: theoretical framework and validation, Methods Biomech Biomed Engin IEEE, vol.15, issue.548, pp.4958-545, 2010.
, Biomechanics : Mechanical properties of living tissues, Trans Med Imaging, issue.11, pp.549-550, 2012.
, Deterministic Analysis, Sensitivities and 553 pliquées, 2000.
, Arterial Stiness: Clinical Relevance, Measurement, 560 and Treatment, Rev Cardiovasc Med, vol.2, issue.1, pp.559-573, 2001.
, Nonlinear mechanical behavior of the human common, 563 external, and internal carotid arteries in vivo, J Surg Res, vol.176, issue.1, pp.329336-564, 2012.
, The use of diameter distension waveforms as an alter- 577 native for tonometric pressure to assess carotid blood pressure, Physiol Meas J. P, vol.57821, issue.4, pp.31543553-579, 2010.
, Elastic modulus of the radial artery wall material is 581 not increased in patients with essential hypertension [22] S. Le Floc'h. Modulographie vasculaire : Application à l'identication in-vivo 584, Arterioscler Thromb, vol.582, issue.7, pp.1412231231-583, 1994.
, Shrinkage Rate and Their Impact on Stress/Strain Predictions Surrounding 592 tissues aect the passive mechanics of the vessel wall: theory and experiment, J Biomech Eng, issue.1, pp.590-134011008, 2012.
, Charac- 595 terization of arterial wall mechanical behavior and stresses from human clinical 596 data, Am J Physiol Heart Circ Physiol J Biomech, vol.293, issue.4112, pp.594-2526182627, 2007.
, Arterial elasticity imaging: comparison of nite-element analysis 602 models with high-resolution ultrasound speckle tracking A con- 605 stitutive formulation of vascular tissue mechanics including viscoelasticity and 606 softening behaviour Biomechanical 608 modelling of orthotic treatment of the scoliotic spine including a detailed rep- 609 resentation of the brace-torso interface, Ultrasonic Measure- 612 ment of the Elastic Modulus of the Common Carotid Artery, pp.22-604984989, 2004.
, Carotid and brachial blood pressure measurements 617 in hypertensive subjects, Ya- 619 mamoto, S. Horu, and A. Yamashina. The age related increase in arterial sti- 620 ness is augmented in phases according to the severity of hypertension. Hypertens 621, pp.24402441-616122124, 2008.
, Deformable Image Registration 626 with Hyperelastic Warping 627 editors, Handbook of Biomedical Image Analysis Kluwer Aca- 628 demic/Plenum Modality independent elastography (MIE): a 630 new approach to elasticity imaging Arterial stiness in relation to 634 subclinical atherosclerosis The stiening of arteries by the tissue-mimicking 636, Hypertension IEEE Trans Med Imaging Eur J Clin Invest, vol.46, issue.391, pp.244248-625, 2004.
, 637 A Finite element models for subjects and patients 638, IEEE Trans Ultrason Ferroelectr Freq Control, vol.53, issue.8, p.15341539, 2006.